Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0022116 (ischemia)
91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Neutrophil accumulation and free radical release are implicated in the genesis of reperfusion injury. However, little is known about the changes in myocardial lipid peroxidation and antioxidant activity in relation to coronary artery thrombosis and thrombolysis. To investigate this issue, 18 dogs with electrically induced occlusive thrombus in the left anterior descending (LAD) coronary artery were given tissue-type plasminogen activator (TPA). Sustained reflow (lasting > 120 min) occurred in 4 dogs, reocclusion after initial thrombolysis (transient reflow, duration of reflow 5 to 25 min) occurred in 7 dogs, and no reperfusion was evident in 7 dogs. Myocardial neutrophil infiltration was determined by measuring myeloperoxidase (MPO) activity, lipid peroxidation by malondialdehyde (MDA) levels and antioxidant activity by superoxide dismutase (SOD) activity in the myocardial regions supplied by the nonischemic left circumflex (Cx) and the ischemic LAD coronary arteries. In dogs with ischemia alone (no reperfusion), MPO activity and MDA levels in the LAD-supplied myocardium were modestly higher and SOD activity modestly lower than in the corresponding Cx-supplied myocardium. In dogs with sustained reperfusion there was a marked increase in MPO and MDA and a marked reduction in SOD activity in the reperfused myocardium. The MPO and MDA values in the myocardium of dogs with transient reperfusion, although much higher than the corresponding normal myocardial values, were less marked than in the myocardium of dogs with sustained reperfusion, and the SOD activity was preserved in the transiently reperfused regions. Myocardial shortening fraction in the LAD region was worse in dogs with sustained reperfusion than in those with sustained ischemia or transient reperfusion.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Myocardial neutrophil infiltration, lipid peroxidation, and antioxidant activity after coronary artery thrombosis and thrombolysis. 783 91

Cocaine use is accompanied by a high risk of serious adverse effects involving the cardiovascular system. The basic cellular mechanisms of cocaine consist in [1] a potentiation of catecholamine effects by inhibition of the presynaptic uptake carrier [2] local anesthetic effects by the block of sodium-channels. Acute ischemic events can be induced by cocaine through coronary spasms in a situation of physiologic stress already accompanied by an enhanced myocardial oxygen demand. Procoagulant properties of cocaine may, moreover, favor coronary thrombosis formation and the development of myocardial infarction. Ischemia, reperfusion and the direct action of catecholamines on cardiocytes are accompanied by enhanced cytoplasmic calcium levels, inducing delayed after-potentials, repetitive action-potential generation and premature ventricular beats. Conduction velocity impairments caused by the local anesthetic effects of cocaine and inhomogeneous repolarization phenomena related to potassium channel inhibition may form a substrate for re-entrant circuits inducing ventricular fibrillation. Cocaine abuse may also cause degenerative and inflammatory alterations of the myocardium. Besides secondary ischemic changes, hypersensitivity-myocarditis and toxic cardiomyopathies that may be due to the cardiotoxic effects of catecholamines have been described in cocaine abusers. Moreover, persons using cocaine intravenously seem to be particularly endangered by bacterial endocarditis compared to the users of other intravenous drugs, for still unknown reasons.
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PMID:The pathophysiology of cocaine cardiotoxicity. 786 5

New research about platelet and endothelial functions is allowing us to better understand the pathogenesis of myocardial ischemic episodes in patients with unstable angina, creating new perspectives for the rational utilization of therapies. In patients with unstable angina, the episodes of symptomatic and silent ischemia are caused by repeated reductions of coronary blood flow. They are the result of the mechanical effect of the growing thrombus, which causes intermittent episodes of partial obstruction of the arterial lumen, in association with vasoconstriction at the stenotic site and dependent coronary arterial bed, produced by the cyclic release of platelet derived vasoactive products, namely thromboxane A2 and serotonin. Several studies, many of them in animal models of thrombosis, suggest that serotonin and thromboxane A2 are mediators of platelet aggregation, adynamic obstruction and coronary artery thrombosis. Because they cause coronary cyclic flow reductions, they are implicated in the pathogenesis of myocardial ischemic episodes during unstable angina. Drugs that interfere with the arachidonate pathway, and the 5-HT2-receptor antagonists, have been proven to decrease or abolish coronary cyclic flow variations in animal models and man. However, further studies should be done to test the hypothesis that the association of a 5-HT2-receptor antagonist with aspirin may contribute to decrease myocardial ischemia and prevent coronary occlusion in patients with unstable angina. Continuous Holter monitoring during the first week after admission in the hospital should be a good method to evaluate the eventual efficacy of this new class of drugs in abolishing or decreasing the frequency, intensity and duration of myocardial ischemic episodes in patients with unstable angina. The central role of serotonin in the pathogenesis of thrombotic events, and the presumed preventive effect of ketanserin, were the bases of a national multicenter pilot controlled study designed to evaluate the safety and efficacy of ketanserin plus aspirin in the secondary prevention of patients with unstable angina and non-Q wave myocardial infarction (KATUA Trial).
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PMID:Insights into the role of thromboxane A2 and serotonin in the pathogenesis of unstable angina. 787 24

Disruption of an atherosclerotic plaque in coronary arteries with a minor stenosis is the usual stimulus for acute coronary thrombosis and myocardial infarction. In this article the pathogenesis of arterial thrombosis and contributions of local arterial wall substrates, the rheology of blood flow, systemic factors, and the critical role of thrombin in the formation of thrombus are discussed. More potent antithrombotic therapy may accelerate exogenous thrombolysis, allows endogenous thrombolysis, and should reduce recurrent infarction and ischemia and death, as well as need for coronary revascularization. Maximal antithrombotic therapy for acute myocardial infarction includes an intravenous bolus of heparin at 100 U/kg followed by an intravenous infusion--at 1,200 U/hr for patients weighing 60-80 kg, 1,300 U/hr for those weighing > 80 kg, and 1,000 U/hr for those weighing < 60 kg (or 17 U/kg/hr)--to maintain the activated partial thromboplastin time at 2-3 times control (60-90 sec) for at least 5-7 days. To convert intravenous to subcutaneous administration, use 14,000-17,000 U every 12 hours and initially overlap the intravenous infusion by 2 hours. The loading dose of aspirin on admission to the hospital is 160 mg followed by 80 mg/day. High-risk patients should be considered for conversion of heparin to warfarin therapy for at least 3 months at an international normalized ratio of 2.5-4.0 for the prevention of recurrent ischemia, reinfarction, death, thromboembolism, reactivation of thrombosis, and reduced necessity for revascularization.
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PMID:Conjunctive antithrombotic therapy for thrombolysis in myocardial infarction. 827 64

Although coronary thrombosis is thought to play a pivotal role in the pathogenesis of unstable angina and non-Q wave myocardial infarction and antithrombotic therapy is a mainstay in the early management of these patients, the relation between measures of systemic anticoagulation and clinical events has not been defined clearly. In the Thrombolysis in Myocardial Ischemia III trial, 1473 patients with ischemic chest pain at rest evaluated within 24 hours of symptom onset were randomized to (1) tissue plasminogen activator (TPA) or placebo and (2) an early invasive or an early conservative strategy. All patients received a full complement of anti-ischemic medication, aspirin, and continuous intravenous heparin titrated to an activated partial thromboplastin time (aPTT) of 1.5 to 2.0 times control for 72 to 96 hours. The median aPTT in all study groups exceeded the minimum threshold (45 seconds) by 24 hours and remained within the designated range during the protocol-directed heparin infusion. No differences in median aPTT values for the 72- to 96-hour study period were observed between groups (p=not significant). Median 12-hour heparin concentrations were >0.2 U/ml in all groups; however, values <0.2 U/ml were common thereafter, particularly in TPA-treated patients. Time-dependent covariate analyses failed to identify statistically significant differences in either aPTT or heparin levels between patients with in-hospital clinical events (spontaneous ischemia, myocardial infarction, or death) and those without events (p=0.27). Furthermore, early clinical events occurred in a similar percentage of patients with optimal anticoagulation (all aPTTs >60 seconds, all heparin levels>0.2 U/ml), and those with aPTTs or heparin levels below these thresholds. Aggressive (high-intensity) anticoagulation with heparin to achieve aPTTs >2.0 times control does not appear to offer additional clinical benefit to lower levels (1.5 to 2.0 times control) among patients with unstable angina and non-Q wave myocardial infarction receiving intravenous heparin and oral aspirin. Therefore, the optimal level of anticoagulation in this common clinical setting is between 45 and 60 seconds when heparin is included in the treatment strategy. Direct plasma heparin measurement does not offer an advantage to routine aPTT monitoring. The occurrence of spontaneous ischemia, myocardial infarction, and death in spite of antischemic therapy and optimal anticoagulation (as it is currently defined) with heparin supports ongoing efforts to develop more effective antithrombotic agents.
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PMID:Relation between systemic anticoagulation as determined by activated partial thromboplastin time and heparin measurements and in-hospital clinical events in unstable angina and non-Q wave myocardiaL infarction. Thrombolysis in Myocardial Ischemia III B Investigators. 860 20

We investigated changes in vascular reactivity to endothelin (ET) and local release of ET-like immunoreactivity (ET-LI) induced by myocardial ischemia and reperfusion in a pig model of coronary thrombosis and thrombolysis and studied the possible mechanisms producing the changed vascular reactivity to ET-1. We induced coronary thrombosis by inserting a copper coil into the left anterior descending coronary artery (LAD) and achieved thrombolysis with tissue plasminogen activator (t-PA). Vascular reactivity to ET-1 in the nonischemic and ischemic/reperfused LAD diagonal branches was evaluated in vitro. ET-LI was analyzed in plasma from the great cardiac vein and aorta for estimation of local release. The vasoconstrictor response to ET-1 was enhanced twofold (p < 0.01) in the ischemic/reperfused arteries as compared with the nonischemic arteries. The vasoconstriction induced by the ETB receptor agonist [Ala 1,3,11,15] ET-1 or serotonin was not significantly affected by ischemia/reperfusion. The ETA receptor antagonist BQ-123 reversed the ET-1-induced vascular contraction to a similar degree in ischemic/reperfused and control arteries. The ET-1-induced vasoconstriction of control arteries was not affected by inhibition of nitric oxide (NO) synthase with NG-nitro-L-arginine (L-NNA) or cyclooxygenase with indomethacin. During reperfusion, the myocardial venoarterial plasma concentration difference of ET-LI and blood flow increased, resulting in an increased overflow of ET-LI. Our results demonstrate that coronary thrombosis and thrombolysis evokes enhanced local release of ET-LI during the reperfusion period and increases the vasoconstrictor effects of ET-1 through a mechanism related to ETA receptor activation but unrelated to altered endothelial function. These changes may play a role in the development of ischemic/reperfusion injury and no-reflow phenomenon.
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PMID:Myocardial release of endothelin (ET) and enhanced ET(A) receptor-mediated coronary vasoconstriction after coronary thrombosis and thrombolysis in pigs. 863 92

Major advances in the understanding of myocardial infarction (MI) have been made on animal models of ischemia and infarction. We performed ultrastructural examinations of the hearts of 36 patients who died during the acute phase of MI. Tissue for investigation was obtained by express necropsy immediately after death at the clinic. All components of the microcirculatory system of the heart were damaged during the acute phase of MI. Coronary thrombosis led to arteriolar spasm and intravascular blood coagulation in the vicinity of the damaged artery. Microvessels reduction in ischemic, necrotic, and near-infarct zones was caused by endothelial cell injury and rheological disturbances. Thrombocytes played a decisive role in thrombus formation and arteriolar constriction. Leukocytes nearly always impaired the microhemodynamics in ischemic zones due to their size and rigidity. Microcirculatory disorders seemed to precede myocardial cell injury and death.
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PMID:Pathogenesis and morphogenesis of microcirculatory disorders in myocardial infarction. Clinical and ultrastructural examination. 870 66

Recent research on the effects of behavioral activities on myocardial ischemia in coronary artery disease patients has provided a pathophysiologic model for understanding the mechanisms by which mental stress can trigger clinical cardiovascular events. This article reviews epidemiologic research implicating psychosocial stress as an acute trigger of myocardial infarction in patients with pre-existing coronary artery disease, and evidence for the pathophysiologic effects of acute mental stress in individuals with pre-existing coronary artery disease. Via its actions on the central and autonomic nervous systems, stress can produce a cascade of physiologic responses in vulnerable individuals that may lead to myocardial ischemia, ventricular fibrillation, plaque rupture, or coronary thrombosis. Also reviewed are field and laboratory studies that suggest important causal links between mental stress and myocardial ischemia, and evidence suggesting clinical significance for vulnerability to mental stress-induced ischemia.
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PMID:Mental stress as a trigger of myocardial ischemia and infarction. 872 59

The effect of endothelin-1 (ET-1) on thrombus formation in vivo was evaluated in two well-established canine models of coronary artery thrombosis. First, the possible antithrombotic effect of ET-1 was examined using the cyclic flow reduction (CFR) model of coronary artery stenosis, vascular endothelial cell and intimal smooth muscle cell injury, and periodic acute platelet thrombus formation. Using a rating system of 0 (no inhibition) to 3 (complete inhibition), ET-1 administration at 0.1, 0.5, and 1.0 microgram/kg, i.v. bolus, produced scores of 1.0 +/- 0.2 (n = 10), 1.8 +/- 0.4 (n = 8), and 2.1 +/- 0.3 (n = 7), respectively. ET-1 injection inhibited ex vivo platelet aggregation induced by ADP and U-46619 by 30-60%. When aspirin was administered at 5 mg/kg prior to ET-1 administration at 0.5 microgramoff, ET-1 produced a CFR rating of 2.7 +/- 0.2 (n = 6). However, higher dose aspirin (30 mg/kg, i.v.) significantly inhibited the antithrombotic effect of ET-1 (0.5 +/- 0.5, n = 4). The antithrombotic effect of ET-1 was also examined using an electrolytic injury model of arterial thrombosis. The time required to produce an occlusive thrombus during the experiments in which ET-1 was administered at 10 and 20 ng.kg-1.min-1 was 77 +/- 15 (p < 0.08) and 105 +/- 16 min (p < 0.05), respectively, compared to 44 +/- 5 min when vehicle was infused. Cardiovascular changes following occlusion were not significantly different between dogs given ET-1 and those given vehicle, suggesting that elevated plasma levels of ET-1 did not exacerbate the adverse effects of coronary occlusion. In addition, plasma ET-1 levels were elevated significantly after occlusion in the dogs given vehicle (from 7.4 to 12.4 pg/ml). Taken together, these date provide further evidence to support the notion that ET-1 release during ischemia may be involved in a protective mechanism that impeded thrombus formation in the stenosed coronary artery.
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PMID:Inhibition of thrombus formation by endothelin-1 in canine models of arterial thrombosis. 877 41

Acute myocardial infarction (AMI) evolves as a time-dependent wave front of ischemia when the abrupt rupture of an unstable fatty plaque initiates coronary thrombosis. The prospect of salvaging potentially viable myocardial tissue has led to the development of reperfusion strategies using thrombolytic agents. The efficacy of thrombolytic therapy is determined in large measure by the speed with which it is initiated. It is therefore vital to minimize the "door-to-needle" time once a patient with AMI arrives at the emergency department. In this issue (see pages 497 to 505) Dr. Jafna L. Cox and associates report that Canadian centres participating in the GUSTO-I trial were significantly slower to initiate thrombolytic therapy than their US counterparts. In this editorial Cox and associates' report is reviewed against the background of similar trials, and strategies to minimize delays in the initiation of thrombolytic therapy are suggested.
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PMID:Thrombolysis after acute myocardial infarction: are Canadian physicians up to the challenge? 905 19


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